Contents: defect theory: an armchair history; Supercell methods for defect calculations; Marker method calculations for electrical levels using Gaussian orbital basis-sets; Dynamical Matrices and free energies; The calculation of free energies in semiconductors: defects, transitions and phase diagrams; Quantum Monte Carlo techniques and defects in semiconductors; Quasi particles calculations for point defects at semiconductor surfaces. Lecture Notes Collection FreeScience.info ID1117 Obtained... Topics: Semiconductor Physics, "
Contents: I Lightly Doped Semiconductors; Isolated impurity states; Localization of electronic states; Impurity band for lightly doped semiconductors; DC hopping conductance ...; Percolation theory; Hopping conductance; AC conductance due to localized states. Lecture Notes Collection FreeScience.info ID1319 Obtained from http://folk.uio.no/yurig/disorder.pdf http://www.freescience.info/go.php?pagename=books&id=1319 Topics: Semiconductor Physics, "
E.J.M. Kendall Transistors Pergamon press 1969 Reproduction of original papers by Bardeen, Brattain, Shockley, etc. Acrobat 7 Pdf 8.6 Mb. Scanned by artmisa using Canon DR2580C + flatbed option Topics: Semiconductor Physics, Bardeen, Shockley
A.H.W. Beck & H. Ahmed An Introduction to Physical Electronics Edward Arnold 1968 Acrobat 7 Pdf 14.4 Mb. Scanned by artmisa using Canon DR2580C + flatbed option Topics: Gas Discharges, Semiconductor Physics, Thermionic Emission, Masers, Lasers, Microwave Valves
Instructor: Prof. Gang Chen View the complete course: http://ocw.mit.edu/2-57S12 This course aims at a fundamental understanding of descriptive tools for energy and heat transport processes, from nanoscale to macroscale. Student will further learn the applications in nanotechnology and microtechnology. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu Topics: nanotechnology, nanostructure, energy, energy trasnport, energy storage, energy carriers, quantum...